The present invention relates to single dose parenteral vaccine compositions comprising mixtures of monovalent Norovirus virus-like particles. Methods of conferring protective immunity against Norovirus infections in a human subject by administering such compositions are also disclosed.

The instant invention provides various formulations comprising combinations of immunostimulating oligonucleotides, polycationic carriers, sterols, saponins, quaternary amines, TLR-3 agonists, glycolipids, and MPL-A or analogs thereof in oil emulsions, use thereof in preparations of immunogenic compositions and vaccines, and use thereof in the treatment of animals.

The instant invention provides various formulations comprising combinations of immunostimulating oligonucleotides, polycationic carriers, sterols, saponins, quaternary amines, TLR-3 agonists, glycolipids, and MPL-A or analogs thereof in oil emulsions, use thereof in preparations of immunogenic compositions and vaccines, and use thereof in the treatment of animals.

PD1-41BBL fusion proteins are provided. Accordingly, there is provided a PD1-41BBL fusion protein comprising a single amino acid linker between the PD1 and the 41BBL. Also there is provided a PD1-41BBL fusion protein, wherein the PD1 amino acid is 123-166 amino acids in length and/or wherein the PD1 amino acid sequence comprises SEQ ID NO: 2 and/or wherein the fusion protein is in a form of at least a homo-trimer. Also provided are polynucleotides and nucleic acid constructs encoding the PD1-41BBL fusion protein, host-cells expressing the PD1-41BBL fusion protein and methods of use thereof.

A method for formation of a vaccine comprising combining a cationic polymer adjuvant with an antigen to form first immunoparticles through charge interactions and producing a treatment formulation for the vaccine comprising the first immunoparticles.

A method for formation of a vaccine comprising combining a cationic polymer adjuvant with an antigen to form first immunoparticles through charge interactions and producing a treatment formulation for the vaccine comprising the first immunoparticles.

A vaccine composition for intranasal administration includes a Bordetella pertussis antigen, and an effective adjuvant amount of a high molecular weight glucose polymer. The high molecular weight glucose polymer may be a beta-glucan. The Bordetella pertussis antigen may be an extracellular toxin, an adhesion protein, an outer membrane protein, a receptor protein, a fragment thereof, or a mixture thereof.

A vaccine composition for intranasal administration includes a Bordetella pertussis antigen, and an effective adjuvant amount of a high molecular weight glucose polymer. The high molecular weight glucose polymer may be a beta-glucan. The Bordetella pertussis antigen may be an extracellular toxin, an adhesion protein, an outer membrane protein, a receptor protein, a fragment thereof, or a mixture thereof.

The disclosure provides cyclic dinucleotides that are useful as STING agonists, pharmaceutical compositions and vaccines comprising the cyclic dinucleotides, and methods of treating diseases and disorders using the cyclic dinucleotides, pharmaceutical compositions, and vaccines.

The invention is based on the finding that incubating a Cryptosporidium gp40 protein with an aziridine, significantly increases its immunogenicity. When used as a vaccine, this allows a reduction of the dose, which improves economic feasibility and safety. Consequently the aziridine-treated gp40 can now be used as a safe and effective subunit-vaccine for humans or non-human-animals against Cryptosporidiosis. Specifically for new-born ruminants a vaccination by way of colostral transfer was found to be very effective in reducing clinical signs of Cryptosporidiosis, especially diarrhoea.